中华神经医学杂志
中華神經醫學雜誌
중화신경의학잡지
CHINESE JOURNAL OF NEUROMEDICINE
2010年
6期
598-601
,共4页
汤建文%李蕊%范郑丽%万子兵%赵红梅%隋建峰
湯建文%李蕊%範鄭麗%萬子兵%趙紅梅%隋建峰
탕건문%리예%범정려%만자병%조홍매%수건봉
逆行性遗忘%电休克%缺氧%丙泊酚%动物模型
逆行性遺忘%電休剋%缺氧%丙泊酚%動物模型
역행성유망%전휴극%결양%병박분%동물모형
Retrograde amnesia%Electric shock%Anoxia%Propofol%Animal model
目的 探讨用电击、缺氧、麻醉等处理方法 建立小鼠逆行性遗忘动物模型的可行性及优劣.方法 将72只昆明小鼠分为对照组及电休克、缺氧、丙泊酚、电休克+缺氧、电休克+丙泊酚5个处理组.先给予各组相同的避暗训练以建立避暗行为,随后分别给予各处理组120~180 V电击、密闭容器内缺氧、腹腔注射0.3 mL丙泊酚、120~180 V电击+密闭容器内缺氧、120~180 V电击+腹腔注射0.3 mL丙泊酚相应处理.次日开始用暗箱观察各组小鼠的步入潜伏期,以分析避暗行为的变化.结果对照组小鼠在避暗训练后24 h(第4天)的步入潜伏期为(111.7±17.2)S,缺氧组、电休克+缺氧组、电休克+丙泊汾组与对照组相比差异均有统计学意义(P<0.05);电休克组、缺氧组、电休克+缺氧组、电休克+丙泊酚组4组均有部分小鼠步入潜伏期明显缩短至30 s以内,其发生率分别为43.8%、45.4%、66.7%、60%,而丙泊酚组步入潜伏期无明显变化.第5天、第8天观察显示,步入潜伏期缩短的小鼠中个别出现恢复.结论 电休克、缺氧、电休克+缺氧、电休克+丙泊酚处理后的小鼠中部分可出现逆行性遗忘表现,以电休克+缺氧组建模的成功率最高:已出现逆行性遗忘的小鼠中部分可在后期恢复;单纯丙泊酚不能引起逆行性遗忘.
目的 探討用電擊、缺氧、痳醉等處理方法 建立小鼠逆行性遺忘動物模型的可行性及優劣.方法 將72隻昆明小鼠分為對照組及電休剋、缺氧、丙泊酚、電休剋+缺氧、電休剋+丙泊酚5箇處理組.先給予各組相同的避暗訓練以建立避暗行為,隨後分彆給予各處理組120~180 V電擊、密閉容器內缺氧、腹腔註射0.3 mL丙泊酚、120~180 V電擊+密閉容器內缺氧、120~180 V電擊+腹腔註射0.3 mL丙泊酚相應處理.次日開始用暗箱觀察各組小鼠的步入潛伏期,以分析避暗行為的變化.結果對照組小鼠在避暗訓練後24 h(第4天)的步入潛伏期為(111.7±17.2)S,缺氧組、電休剋+缺氧組、電休剋+丙泊汾組與對照組相比差異均有統計學意義(P<0.05);電休剋組、缺氧組、電休剋+缺氧組、電休剋+丙泊酚組4組均有部分小鼠步入潛伏期明顯縮短至30 s以內,其髮生率分彆為43.8%、45.4%、66.7%、60%,而丙泊酚組步入潛伏期無明顯變化.第5天、第8天觀察顯示,步入潛伏期縮短的小鼠中箇彆齣現恢複.結論 電休剋、缺氧、電休剋+缺氧、電休剋+丙泊酚處理後的小鼠中部分可齣現逆行性遺忘錶現,以電休剋+缺氧組建模的成功率最高:已齣現逆行性遺忘的小鼠中部分可在後期恢複;單純丙泊酚不能引起逆行性遺忘.
목적 탐토용전격、결양、마취등처리방법 건립소서역행성유망동물모형적가행성급우렬.방법 장72지곤명소서분위대조조급전휴극、결양、병박분、전휴극+결양、전휴극+병박분5개처리조.선급여각조상동적피암훈련이건립피암행위,수후분별급여각처리조120~180 V전격、밀폐용기내결양、복강주사0.3 mL병박분、120~180 V전격+밀폐용기내결양、120~180 V전격+복강주사0.3 mL병박분상응처리.차일개시용암상관찰각조소서적보입잠복기,이분석피암행위적변화.결과대조조소서재피암훈련후24 h(제4천)적보입잠복기위(111.7±17.2)S,결양조、전휴극+결양조、전휴극+병박분조여대조조상비차이균유통계학의의(P<0.05);전휴극조、결양조、전휴극+결양조、전휴극+병박분조4조균유부분소서보입잠복기명현축단지30 s이내,기발생솔분별위43.8%、45.4%、66.7%、60%,이병박분조보입잠복기무명현변화.제5천、제8천관찰현시,보입잠복기축단적소서중개별출현회복.결론 전휴극、결양、전휴극+결양、전휴극+병박분처리후적소서중부분가출현역행성유망표현,이전휴극+결양조건모적성공솔최고:이출현역행성유망적소서중부분가재후기회복;단순병박분불능인기역행성유망.
Objective To explore the feasibility and advantages of establishment of retrograde amnesia (RA) model in mice with such methods as electric shock,anoxia,and anesthesia.Methods Kunming mice were divided into control group and 5 treatment groups,including treatments with electric shock,anoxia,propofol,electric shock+anoxia,electric shock+propofol.At first,every group received the same dark avoidance training to establish the behavior of dark avoidance,then the 5 treatment groups were treated with the methods of 120-180 V electric shock,anoxia within a closed container,intraperitoneal injection of 0.3 mL of propofol,electric shock+anoxia,electric shock+propofol,respectively.Next day,step-in latency (Lat) of mousse were measured with the dark chamber in all groups and changes of dark avoidance behavior were analyzed.Results The Lat in the control group 24 h after dark avoidance training was (111.7+17.2) s.In the treatment groups of electric shock,anoxia,electric shock+anoxia,electric shock+propofol,significantly shortened Lat,which limited to 30 s in some mice 24 hatter corresponding treatment,was observed as compared with that in the control group (P<0.05).Except for the propofol treatment group did not changed obviously,the incidence rate of shortened Lat was 43.8%,45.4%,66.7% and 60% in the electric shock treatment group,anoxia treatment group,electric shock+anoxia treatment group,and electric shock+propofol treatment group,respectively.On the 5th and 8th d,some mice recovered from the shortened Lat.Conclusion RA model can be established successfully in some mice treated with electric shock,anoxia,electric shock+anoxia,electric shock+propofol and the highest modeling rate was found in the electric shock+anoxia treatment group.RA can recover in the later stage in some modeling mice and use of pmplfol alone call not induce RA.
